Effect of the atmospheric plasma treatment parameters on surface and mechanical properties of jute fabric

Bozacı, Ebru; Sever, Kutlay; Demir, Aslı; Seki, Yoldaş; Sarıkanat, Mehmet; Özdoğan, Esen

doi:10.1007/s12221-009-0781-6

Cited by 70 publications

(40 citation statements)

References 44 publications

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“…A detailed review of measuring wicking of yarns and fabrics was outlined by Subramaniam et al [18] and is in important contribution in wicking. Wong et al [9] and Bozaci et al [19] have studied the effect of plasma treatment on the properties of linen and jute yarns respectively. They report an increase in the wickability following plasma treatment.…”

Section: International Journal Of Advance Engineering and Research Dementioning

confidence: 99%

The Effect of Weave Structures and Treatments on the Wickability of Cotton Fabrics

2017

IJAERD

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Section: International Journal Of Advance Engineering and Research Dementioning

confidence: 99%

The Effect of Weave Structures and Treatments on the Wickability of Cotton Fabrics

2017

IJAERD

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“…As a result strong intensity of plasma action happened on the fibre surfaces due to the increase of charged ion concentration. [17,18]. It is noted that jute fibre contains organic molecules.…”

Section: IIImentioning

confidence: 99%

Influence of Low Temperature Plasma Treatment on the surface, Optical and DC Electrical Properties of jute

Anwer¹,

Bhuiyan²

2012

IOSRJAP

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“…Many researchers have reported chemical modifications of biomass fibers that can modify the hydrophilicity of these fibers, such as alkalization [4], acetylation [5], graft copolymerization [6][7][8] and treatment with coupling agents [9,10]. Physical treatments like plasma treatment were also conducted to modify hydrophilicity [11][12][13], However, these modifications require considerable amounts of time and energy, or special equipment to achieve the most preferable fiber properties for fiber-polymer adhesion. Therefore, it would be beneficial to develop a straightforward pretreatment method that would improve the overall processing efficiency.…”

Section: Introductionmentioning

confidence: 99%

Low-temperature pyrolysis on jute fibers as a thermochemical modification method

et al. 2016

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250, 300 o C was conducted in order to remove non-cellulosic compounds without damaging the structure of the cellulose in jute fibers. The chemical, morphological, and mechanical aspects of prepared low-temperature pyrolyzed jute fibers were investigated by Fourier transform infrared (FTIR) spectroscopy, the wettability test in water/dichloromethane system, moisture content measurement, X-ray diffraction (XRD) analysis, scanning electron microscope (SEM), and tensile test using universal testing machine (UTM). It was confirmed that hydrophilic compounds including absorbed water, low molecular weight compounds such as waxes, hemicellulose, and lignin were largely removed from the fibers. Increasing amounts of non-cellulosic compounds were removed as the maximum pyrolysis temperature was increased. The degree of hydrophilic nature of jute fibers were reduced by low-temperature pyrolysis and thus water absorptivity of pyrolyzed jute fibers was reduced as maximum pyrolysis temperature increased. Furthermore, XRD analysis and morphological studies by SEM indicated that the crystalline structure of native cellulose was rarely damaged after pyrolysis up to 300 o C. In case of mechanical properties, breaking tenacity and breaking strain of the fibers decreased with increasing maximum pyrolysis temperatures because flaws formed on the surface of pyrolyzed jute fibers acted as weak-links. In agreement with predictions made according to Weibull's weakest-link theory, it was found that shortened pyrolyzed jute fibers could have higher breaking tenacities compared with raw jute fibers of the same length. In addition, the compatibility with hydrophobic matrix was investigated by the mechanical properties of polypropylene (PP) reinforced with jute fibers. Consequently, it was hypothesized that low-temperature pyrolysis could be used to process raw jute fibers for use as short fiber reinforcements in fiber-polymer systems or be a simple and effective pretreatment method for a wide range of further chemical treatments.

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Effect of the atmospheric plasma treatment parameters on surface and mechanical properties of jute fabric

Cited by 70 publications

References 44 publications

The Effect of Weave Structures and Treatments on the Wickability of Cotton Fabrics

The Effect of Weave Structures and Treatments on the Wickability of Cotton Fabrics

Influence of Low Temperature Plasma Treatment on the surface, Optical and DC Electrical Properties of jute

Low-temperature pyrolysis on jute fibers as a thermochemical modification method

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